(1)What+forces+act+on+the+oil+droplet+when+it+is+stationary+in+an+electrostatic+field?+If+the+field

时间: 2023-11-09 07:06:32 浏览: 42
When an oil droplet is stationary in an electrostatic field, there are two forces acting on it: the gravitational force and the electrostatic force. The gravitational force pulls the droplet downwards towards the ground, while the electrostatic force pushes the droplet upwards towards the top of the field. The electrostatic force is caused by the interaction between the charges on the droplet and the charges on the plates of the field. If the field is strong enough, the electrostatic force can overcome the gravitational force and cause the droplet to levitate in mid-air. This phenomenon is known as Coulombic levitation.
相关问题

affects how fast-paced the game is, forces should be adjusted as well

这句话的意思是,某个因素会对游戏的节奏产生影响,因此需要相应地调整游戏的力量或者力度。具体来说,这句话提到了两个关键词,一个是“fast-paced”,表示游戏的节奏快慢;另一个是“forces”,表示游戏中的力量,比如游戏难度、敌人的攻击力等等。因此,根据这句话的意思,如果游戏的节奏发生了变化,就需要相应地调整游戏中的力量或者力度,以保持游戏的平衡和趣味性。

FPS = 50 SCALE = 30.0 # affects how fast-paced the game is, forces should be adjusted as well

这两个参数是程序的基本设置,对游戏运行和机器人行走都有影响。具体来说: - FPS:游戏的帧率,表示游戏每秒钟更新的次数,取值为50,也就是游戏每秒钟刷新50次。 - SCALE:游戏的缩放比例,表示游戏中元素的大小与实际大小的比例,取值为30.0,这个值越大,游戏中的元素就越小,整个游戏的地图也会变得更大,机器人行走的速度和步长也会受到影响。 根据这两个参数的含义,我们可以看出它们与游戏的节奏和机器人行走的速度都有关系。比如,FPS越高,游戏的帧率就越快,游戏的节奏也会变得更快,机器人行走的动作也会更加流畅;而SCALE越大,游戏中的元素就越小,地图也会变得更大,机器人行走的速度和步长也会受到影响,这可能会影响机器人行走的稳定性和表现。因此,这两个参数需要在程序中进行相应的调整和控制,以保证机器人能够在合适的环境下进行行走和探索。

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翻译This reversible actuation scheme offers stable performance in extended cycling tests (100,000 cycles), as validated using a simple 3D ribbon structure with one side bonded to a substrate (fig. S5), heated locally by exposure to a laser scanned at a frequency of 5 Hz for 7.5 hours. The laser used here has a spot size of 2.5 mm for easy alignment and a power of 188 mW (corresponding to an intensity of ~950 mW/cm2 ) for effective heating. The irradiation conditions must be selected to avoid damage to the constituent materials (33). The experimental setup includes a microscope (Keyence, VHX-5000) to record the deformations (movie S1) and a customized algorithm to capture the position of the top edge (fig. S6). As shown in fig. S7, the mean and SD of the highest positions in the initial 50 cycles are 27.1 and 1.80 mm, respectively, and those after 135,000 cycles are 26.3 mm (mean of 50 cycles) and 2.19 mm (SD of 50 cycles). An indenter with fixed displacement serves as the basis for measurements of forces generated from the 3D ribbon structure (fig. S8A). As shown in fig. S8B, the force reaches ~47 N at 70°C.

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